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BIOLOGY 190A Lecture Notes - Lecture 21: Insulin, Phosphorylation, Nitric Oxide

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harlequinclam752
13 Jan 2016
School
UMASS-Amherst
Department
Biology
Course
BIOLOGY 190A
Professor
Laura Francis

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Document Summary

While the specifics of each part of the signaling pathway can differ, the general concept is conserved: activating a transcription factor can cause long-term cellular changes by changing the expression of a gene or set of genes. This can result in the activation or inhibition of the production of specific proteins. Doing so can have a variety of effects, such as cell growth, division, differentiation, or development, which result in long-term cellular changes: in eukaryotic cells, only three amino acids can be phosphorylated: serine, threonine, and tyrosine. When a protein is phosphorylated, it undergoes a conformational change, affecting its structure, therefore altering function. This conformational change can regulate the catalytic properties of a protein by either activating it or inactivating it. Additionally, phosphorylating a protein can attract other proteins with phosphate binding domains. This is the basis behind signal transduction cascades1: the enzymatic activity of a protein kinase is to phosphorylate a substrate protein.

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Related Questions

QUESTION 1

Which of the following is an example of an extracellular signal molecule?

a.

IP3
b.

cAMP
c.

Insulin
d.

Diacylglycerol

2 points

QUESTION 2

Nuclear hormone receptors _____

a.

Bind to water soluble ligands
b.

Activate second messengers
c.

Regulate transcription in response to ligand binding
d.

Are normally located on the plasma membrane

2 points

QUESTION 3

Which of the following does not occur when a receptor tyrosine kinase is bound by ligand?

a.

Phosphorylation of the RTK
b.

Cytoplasmic proteins bind the phosphorylated RTK
c.

Dimerization of the RTK
d.

The RTK binds to DNA to regulate transcription

2 points

QUESTION 4

Which of these is a logical signal-transduction pathway?

a.

An intracellular receptor activates phospholipase C, which cleaves a membrane protein to form IP3, which then activates the opening of an ER channel protein, which releases cyclic AMP into the cytoplasm, where it binds to an intracellular enzyme that carries out a response.
b.

A G-protein-linked receptor activates G protein, which activates phospholipase C, which cleaves a membrane lipid to form IP3, which binds to a calcium channel on the ER, which opens to release calcium ions into the cytoplasm, which bind to an intracellular enzyme that carries out a response.
c.

An ion-channel receptor opens, allowing a steroid hormone to enter the cell; the steroid hormone then activates protein kinases that convert GTP to GDP, which binds to an intracellular enzyme that carries out a response.
d.

A tyrosine-kinase receptor activates adenylyl cyclase, which activates phospholipase C, which converts ATP into cyclic AMP, which binds to an intracellular enzyme that carries out a response.

2 points

QUESTION 5

Which of the following is an example of signal amplification?

a.

activation of an enzyme molecule
b.

activation of a specific gene by a growth factor
c.

Breakdown of many cAMP molecules
d.

activation of 100 molecules by a single signal binding event

2 points

QUESTION 6

Consider a signal transduction pathway that utilizes cAMP as a second messenger to activate PKA (Protein Kinase A). Which of the following situations will result in the cellular response?

The G protein releases GDP and binds to GTP

The target protein (adenylyl cyclase) is inactive

The regulatory subunits of PKA (Protein Kinase A) are bound to the catalytic subunits

The appropriate G protein is bound to GDP

2 points

QUESTION 7

Which of the following is found in only some signal transduction pathways? [In other words, which is not found in all signal transduction pathways?]

Receptor protein

Extracellular signal molecule

Intracellular signaling molecule

Cellular response

Effector protein

2 points

QUESTION 8

The enzyme that specifically catalyzes the conversion of ATP to cAMP is:

Adenylyl phosphatase

Adenylyl kinase

Adenylyl dehydrogenase

Adenylyl cyclase

2 points

QUESTION 9

If an animal cell suddenly lost the ability to produce GTP, what might happen to its signaling system?

It would use ATP instead of GTP to activate and inactivate the G protein on the cytoplasmic side of the plasma membrane.

It would not be able to activate and inactivate the G protein on the cytoplasmic side of the plasma membrane.

It would employ a transduction pathway directly from an external messenger.

It would be able to carry out reception and transduction but would not be able to respond to a signal.

2 points

QUESTION 10

A hormone signal is sent from the brain to other parts of the body via the bloodstream. Why do only certain cells respond to this signal?

Hormones do not last long enough in the bloodstream to stimulate a cellular response

Only cells that have a specific transcription factor gene will be able to respond to the signal

Only cells in the immediate vicinity of the cell sending the signal will respond

Only cells that have a receptor for the specific signal will be able to respond to it